Col12a1 (NM_007730) Mouse Untagged Clone
CAT#: MC225455
Col12a1 (untagged) - Mouse collagen, type XII, alpha 1 (Col12a1), (10ug)
"NM_007730" in other vectors (2)
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Other products for "Col12a1"
Specifications
Product Data | |
Type | Mouse Untagged Clone |
Tag | Tag Free |
Symbol | Col12a1 |
Synonyms | AW743884 |
Vector | pCMV6-Entry |
E. coli Selection | Kanamycin (25 ug/mL) |
Mammalian Cell Selection | Neomycin |
Sequence Data |
>MC225455 representing NM_007730
Red=Cloning site Blue=ORF Orange=Stop codon TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC GCCGCGATCGCC ATGCAGACCAGGCTTCCCCGAGCGCTGGCCGCCCTGGGCGTGGCCCTACTCCTGTCTTCCATTGAGGCAG AAGTTGACCCACCTTCCGACTTGAATTTTAAAATTATAGATGAAAATACTGTTCATATGTCATGGGAGAG ACCAGTTGATCCAATTGTGGGTTACAGAATAACAGTGGACCCTACAACAGATGGGCCTACTAAAGAATTT ACCCTTGCAGCTAGTACCACTGAAACTCTATTATCAGATCTTATTCCTGAAACACAGTATGTGGTGACTA TAACTTCCTATAATGAAGTAGAAGAAAGTGTGCCAGTAATAGGTCAACTAACAATTCAAACAGGTGGTCC TACAAAGCCAGGGGAGAAGAAACCTGGAAAAACAGAAATACAAAAGTGCTCTGTCAGTGCCTGGACCGAC CTAGTGTTTCTTGTGGACGGCTCCTGGAGTGTGGGAAGAAATAATTTCAAGTACATTTTAGACTTCATTG TTGCTCTGGTGTCTGCATTTGACATTGGGGAGGAGAAGACGAGGGTTGGAGTTGTTCAGTACAGCTCAGA TACCAGGACTGAATTTAACTTAAATCAGTATTACCGAAGAGAAGACCTCCTTGCTGCAGTTAAAAAAATA CCATACAAAGGCGGCAACACAATGACAGGGGATGCCATTGATTACTTAGTTAAAAACACTTTTACTGAAT CTGCTGGCTCACGAGCTGGCTTTCCTAAAGTGGCAATTATTATCACGGACGGCAAGTCTCAGGACGAAGT GGAAATTCCAGCGCGGGAGCTTCGGAATATTGGAGTTGAGGTTTTCTCTCTGGGCATTAAAGCTGCAGAT GCAAAAGAACTCAAACAAATTGCATCCACACCTTCCCTGAACCATGTGTTCAATGTGGCCAATTTTGATG CAATTGTGGACATCCAGAATGAGATAATCTCGCAGGTGTGTTCAGGAGTTGATGAGCAGCTTGGTGAGCT GGTCAGTGGAGAAGAAGTCATCGAGCCTCCTTCAAATCTGGTAGTCACTGAACTCTCATCAAAATACATT AGGCTGAGCTGGGATCCGTCTCCCAGCGCTGTGACCGGCTATAAGATCCTCCTCACACCAATGGCAGCGG GAAGCCGGCATCACGCTTTGAGTGTGGGGCCCCAGACGACCACGCTCAATGTTCGTGACCTTACAGCGGA CACGGAGTACCAGATCAGCGTTTTTGCCATGAAGGGCCTGACGTCCAGTGAACCCACTTCGGTCATGGAG AAGACGCAGCCAATGAAAGTTCAAGTGGAATGTTCACGTGGTGTGGATATAAAAGCTGACATCGTGTTTT TGGTTGATGGTTCCTATAGCATCGGGATTGCAAATTTTGTTAAAGTTCGAGCCTTTTTAGAAGTTCTTGC AAAAAGTTTTGAGATTTCTCCGAACAGGGTGCAGATAAGCCTTGTACAGTACAGCAGGGACCCTCACACC GAGTTCACATTGAAGGAGTTCAACAGAGTTGAAGATATAATCAAAGCAATAAACACCTTCCCGTACAGGG GAGGATCCACAAACACAGGCAAAGCCATGACTTATGTCAGAGAGAAAATATTTGTGCCAAACAAAGGTTC CAGAAGCAACGTACCGAAGGTGATGATTCTCATCACAGATGGGAAGTCATCAGATGCTTTCAGGGATCCT GCTATAAAACTCAGGAACTCCGACGTGGAGATCTTCGCAGTCGGTGTAAAGGACGCTGTGCGCTCAGAAC TGGAAGCCATTGCCTCTCCTCCTGCTGAGACCCACGTGTTCACAGTGGAGGATTTTGATGCCTTTCAGAG GATATCATTTGAACTCACACAGTCCATCTGTCTTAGAATTGAGCAAGAGTTGGCAGCTATAAAGAAGAAA GCTTACGTTCCACCAAAGGATCTGAGGTTTACTCAGGTAACTGCTAATAGTTTCAAAGCTGAATGGTCTC CTCCTGGAGACAATGTCTTTTCGTATCACGTCACATACAAGGATGCTAATGGTGATGATGAGGTCACAGT GGTGGAGCCAGCCTCCAGCACTAGTGTTGTTCTCAACAACCTGAGGCCAGAAACCCTGTACTTGGTGAAT GTGACAGCCGAGTATGAGGACGGCTTCAGTGTTCCTATAACTGGGGAGGAGACCACTGCAGAAGTAAAAG GAGTTCCACGAAACCTGAAGGTGACAGATGAGACTACGGACAGTTTTAAACTTACCTGGTCCCAAGCTCC AGGGAGAGTCTTAAGGTATCGGATTAGATACAGACCAGTTTCTGGTGGAGAAAGCAAAGAAGTGAGTACC CCAGCCAATCAGAGGAGGAAAACACTGGAGAATCTGACGCCCGACACAAAATATGAAATATCTGTGATTG CTGAATATTCCTCGGGACCTGGATCTCCACTGACAGGAAATGCAGCCACTGAAGAAGTTAGAGGGAATCC AAGAGACCTAAGAGTTTCTGATGCTACGACATCAACGCTGAAGTTGTCTTGGAGTAGGGCACCAGGAAAG GTGAAGCAATATCTTGTCACATACACCCCAGCAGCAGGAGGTGAAACTCAGGAGGTCACTGTGAGAGGAG ATACAACCACTACCATGTTGAGGAAATTGAAGGAAGGGACACAGTATGACTTATCTGTGACAGCACTGTA TGCGTCTGGGGCTGGCGAAGCCCTTTCTGGAAAAGGATCAACTCTTGAAGAACGTGGCTCACCTCAGAAC CTAGTTACCAAAGACATCACAGACACATCAATCGGAGCCTATTGGACATCTGCCCCAGGGATGGTTCGAG GGTACAGGGTCTCATGGAAATCGCTTTACGACGACATTGAGGCTGGAGAGACAACTCTTCCTGGAGATGC AATTCATACTATGATAGAGAACCTGCAGCCAGAGACCAAGTACAAAATTTCAGTTTTCGCAACTTACAGC AGTGGAGAAGGAGAGCCCGTGACCGGAGATGCCACAACTGAATTATCTCAAGATTCCAAAATCTTAAGAG TGGATGAAGAAACAGAACACACGATGAGAGTTACCTGGAAAGCAGCACCGGGGAAAGTCGTCAACTACCG TGTTGTGTATCGCCCTCAAGGGGGTGGGAGGCAGATGGTTGCTAAGGTGCCACCCACGGTCACTTCAACA GTGCTAAAGAGACTTCAACCCCAGACCACATATGACATCACAGTTCTCCCAATGTACAAGACAGGAGAAG GAAAGCTCAGGCAAGGCTCAGGAACAACAGCGTCTCGATTTAAATCGCCGAGAAACCTCAAAACTTCTGA CCCAACCATGTCAAGTTTCAGAGTGACTTGGGAGCCTGCCCCTGGGGAAGTGAAAGGTTACAAAGTCACA TTCCACCCTACAGGCGATGACAGAAGACTTGGGGAGTTGGTCCTTGGACCATATGACAACACAGTTGTCT TGGAGGAGCTTAGGGCAGGCACCACCTATAGAGTCAATGTTTTTGGGATGTTTGATGGAGGAGAAAGTTT ACCACTCGTTGGGCAAGAAATGACAACTCTTTCTGACACAACTGTGACACCATTTCTATCTTCTGGGATG GATTGTCTCACCAGAGCTGAAGCAGACATTGTGTTGCTGGTGGATGGGTCATGGAGCATCGGCCGTGCAA ATTTTAGAACTGTGCGAAGCTTCATTTCTCGTATTGTAGAAGTCTTTGAAATTGGCCCCAAAAGAGTACA AATTGCTCTCGCTCAGTACAGTGGAGACCCCAGAACAGAGTGGCAGTTAAATGCTCATAGAGACAAGAAG AGTTTATTACAGGCTGTGGCGAACTTACCATACAAAGGAGGAAATACCCTCACAGGCATGGCTTTGAATT TCATTCGCCAACAGAGCTTCAAGACTCAAGCTGGCATGAGGCCTCGTGCTCGCAAAATTGGAGTTCTCAT TACCGATGGAAAATCACAAGATGATGTGGAGGCTCCATCCAAGAAACTCAAGGATGAAGGCGTGGAGCTG TTTGCTATTGGTATTAAGAATGCTGATGAAGTTGAGTTAAAGATGATTGCCACTGATCCAGATGACACTC ACGCATACAATGTGGCAGATTTTGAGTCATTGTCCAAGATTGTGGATGACCTCACCATCAACTTGTGTAA CAGTGTCAAGGGCCCTGGTGACTTGGAAGCACCGACTAACTTAGTAATTTCAGAGAGAACTCACCGTTCT TTTAGAGTGAGCTGGACACCCCCTTCTGACAGTGTGGACAGATACAAGGTGGAATACTACCCTGTCTCTG GAGGGAAACGCCAGGAGTTTTATGTGAGTCGACTAGACACTAGCACAGTGCTGAAGGACCTGAAGCCTGA GACTGACTATGTGGTGAACGTGTACTCTGTGGTTGAAGATGAGTACAGTGAGCCTCTGAAGGGCACAGAG AAAACCCTGCCAGTCCCTGTAGTTAGCCTGAATATTTATGATGTTGGCCCCACCACTATGCATGTGCAAT GGCAGCCTGTGGGAGGAGCTACTGGCTACACCGTATCATACCAACCTACTCGATCTCCAGAAGGAACAAA GCCCAAAGAGATGCGCGTGGGGCCAACAGTGAATGATGTGCAGCTGACTGGCCTCCTTCCTAACACAGAG TATGAGGTCACCGTCCAGGCCGTCCTGTATGACCTCACTAGTGAACCTGCCAAAGCTCGGGAAGTCACAT TGCCTTTACCCAGACCTCAGGATGTGAAACTCAGAGATGTGACCCACAGCACCATGAATGTCGTCTGGGA ACCTGTGCTTGGAAAAGTTCGCAAGTACATTGTTAGATACAAAACTCCAGATGAGGAGTTCAAAGAGGTG GAGGTGGACAGATCAAGGGCCAGCACTATCCTCAAAGACCTCTCCTCTCAAACCCAGTACACAGTGAGCG TTTCTGCTGTGTACGATGAGGGCACATCTCCCCCAGCAACTGCATATGACACAACCCGGCGTGTTCCAGC CCCAACCAACCTCCAGTTTACTGAAGTCACACCAGAGAGTTTCAGGGGGACCTGGGATCATGGAGCTTCA GATGTGTCTCTCTACAGGATAACTTGGGCACCTGTTGGGAACCCAGATAAGATGGAGACCATTTTAAATG GAGATGAAAATACTTTGGTGTTTGAAAATCTGAACCCCAATACTCCGTATGAAGTCTCCATCACCGCCAT CTATCCTGATGAGTCTGAAAGCGAGGACCTGAGTGGCACAGAGCGCACACTGCGTCTGATACCCTTAACA ACACAAGCTCCAAAAAGTGGTCCACGGAACCTTCAGGTGTACAATGCCACATCTAACAGCTTGACTGTTA AGTGGGATCCTGCTAGTGGTCGTGTGCAGAAGTACAGAATCACCTATCAGCCTTCAACAGGAGAAGGCAA TGAACAAACGATCACAGTAGGAGGACGGCAGAACAGCGTGCTCCTGCAGAAACTGAAGCCTGACACTCCA TACACCATCACGGTGTATTCCCAGTATCCCGATGGTGAAGGTGGCCGGATGACCGGAAGGGGAAAGACCA AACCTCTGAATACCGTGAGGAATTTGAGAGTGTATGACCCGTCTACCAGCTCTTTGAGTGTCCGCTGGGA CCATGCAGAAGGCAATCCTCGTCAGTACAAACTCTTTTATGCCCCAACATCAGGTGGCCCAGAAGAACTG GTCCCAATCCCCGGGAATACCAACTATGCCATTCTTAGGAACCTGCAGCCAGATACTCCATACACCATCA CAGTGGTTCCGGTCTATACAGAAGGTGATGGCGGGCGCACATCAGATACTGGAAGGACATTGGTGAGAGG ACTGGCAAGAAACATCCAAGTGTATAACCCTACGCCCAACAGCCTTGATGTTCGCTGGGACCCCGCCCCA GGGCCAGTGCAGCAGTACCGCATTGTGTACTCCCCTGTTGCTGGTACAAGACCCTCAGAATCTATTGTGG TGCCAGGGAATACCCGAACGGTGCATCTGGAGAGGTTGATTCCTGACACACCCTACTCTGTGAATATCGT GGCTCTCTACTCAGATGGAGAGGGGAATCCCAGCCCCAGCCAGGGCCGAACACTTCCAAGAAGTGGACCA AGGAACATACGGGTCTTTGGGGAGACGACCAACAGCCTCTCTGTAGCCTGGGACCATGCTGATGGGCCAG TTCAGCAATACAGGATCATCTACTCTCCTACTGTCGGCGATCCAATTGATGAATATACCACAGTTCCAGG CAGAAGAAACAATGTAATACTGCAGCCCTTGCAACCTGACACTCCATATAAAATTACTGTCATTGCTATT TATGAGGATGGAGATGGTGGTCACCTAACTGGAAACGGGAGGACTGTGGGTCTGCTTCCTCCTCAGAACA TACACATCTTCGATGAATGGTACACAAGGTTCCGAGTGTCCTGGGACCCTTCACCCTCACCAGTTCTTGG ATATAAAATTGTGTACAAGCCAGTGGGTTCCAATGAGCCCATGGAAGCCTTTGTTGGAGAAGTGACATCA TACACTTTACACAACCTCAATCCCAGCACTACCTATGACGTCAGTGTTTATGCACAGTATGACTCTGGAC TCAGCGTTCCCCTCACAGATCAAGGCACCACATTGTACTTAAATGTGACAGATCTGAAAACTTACCAGGT TGGATGGGATACATTCTGTGTCAAGTGGTCACCTCACCGGGCAGCCACCTCCTACAGGCTAAAGCTGAGT CCTGCAGATGGAACCAGGGGACAAGAAATAACCGTGCGAGGATCAGAGACCAGTCATTGCTTCACTGGTC TCTCCCCGGAGGCTGAGTACGGCGTTACTGTTTTTGTGCAGACACCAAATCTCGAGGGGCCGGGTGTCCC CATCAAAGAACAGACCACTGTGAAACCAACAGAGGCTCCTACAGAACCACCCACGCCTTCTCCTCCTCCC ACTATTCCACCTGCCCGTGATGTATGCAAAGGGGCCAAGGCAGATATTGTGTTCTTGACGGATGCCTCTT GGAGTATTGGAGATGACAATTTTAACAAAGTTGTAAAATTTATCTTTAATACTGTGGGGGCCTTTGATGA AGTCAACCCTGCTGGGATTCAGGTTTCTTTTGTGCAGTACAGTGATGAGGTCAAGTCTGAATTCAAGCTG AACACATACAACGATAAAGCTCTAGCCCTCGGAGCCCTCCAGAACATTCGCTACAGAGGAGGAAACACAA GAACAGGCAAGGCCCTCACATTTATCAAGGAGAAGGTCTTGACCTGGGAGAGCGGCATGAGAAAGAATGT CCCGAAGGTGCTGGTTGTGGTCACAGATGGCCGGTCGCAGGATGAGGTGAAGAAGGCAGCCTTTGTCATC CAGCAGTCAGGGTTCAGTGTATTCGTTGTTGGTGTGGCTGATGTGGACTACAACGAGCTTGCCAACATTG CCAGCAAGCCCAGCGAGAGGCATGTATTCATCGTGGATGACTTTGAATCTTTTGAGAAGATTGAGGACAA TCTGATCACATTTGTTTGTGAAACTGCCACTTCAAGTTGCCCTCTCATCTATCTGGATGGCTACACATCA CCAGGCTTTAAGATGCTTGAAGCTTACAACCTGACAGAAAAGAATTTTGCTTCTGTCCAAGGAGTCTCTT TGGAATCCGGATCTTTCCCTAGCTATTCAGCCTACAGACTTCAGAAGAATGCCTTTATCAATCAGCCCAC AGCAGAACTGCATCCAAATGGACTCCCTCCTTCGTACACGATTATATTATTATTTAGACTTCTCCCAGAA ACTCCTAGTGACCCCTTTGCAATTTGGCAAATTACAGACAGAGACTACAGACCACAAGTTGGAGTGATTG CAGATCCTTCCAGCAAGACACTATCTTTCTTTAATAAGGATACAAGAGGGGAGGTACAAACTGTTACATT TGACACAGATGAAGTGAAGACATTATTTTATGGAAGCTTTCATAAGGTCCATATTGTAGTGACCTCAAAG AGTGTTAAGATTTATATTGACTGCTATGAAATTATAGAAAAAGACATCAAAGAAGCTGGAAATATAACAA CTGATGGCTACGAAATTCTTGGAAAACTTCTTAAAGGAGAGAGGAAGTCAGCCACATTCCAAATCCAGAG CTTTGACATTGTCTGCAGCCCAGTGTGGACCAGTAGAGACAGATGCTGTGATATTCCCTCTAGGAGAGAT GAAGCAAAATGCCCTGCCCTTCCGAATGCTTGCACGTGTACCCAGGACAGCGTTGGACCTCCAGGCCCTC CGGGCCCTGCAGGAGGACCTGGCGCAAAAGGTCCCAGAGGTGAAAGAGGCATCAATGGGGCAGTTGGGCC CCCAGGTCCCCGTGGAGATACTGGCCCTCCAGGCCCTCAAGGTCCTCCAGGCCCCCAGGGACCCAATGGA CTCTCCATTCCGGGCGAACAGGGTCGCCAGGGAATGAAAGGTGATGCAGGAGAGCCAGGCCTTCCGGGAC GGACAGGAACCCCAGGATTACCTGGCCCACCAGGACCAATGGGACCACCAGGAGACAGAGGTTTCACTGG AAAAGATGGTGCAATGGGGCCCAGAGGTCCCCCGGGCCCAGGCTCTCCAGGAGTCACAGGGCCAAGTGGG AAACCAGGAAAACCTGGAGACCATGGCAGACCTGGTCAATCTGGCTTAAAAGGAGAAAAAGGTGATAGGG GAGACATCGCTTCCCAGAACATGATGCGAGCGGTTGCAAGACAAGTCTGCGAACAACTGATCAGTGGCCA GATGAGCAGATTCAATCAGATGCTGAATCAGATTCCAAATGATTACCACTCAAGTCGAAACCAGCCTGGC CCACCAGGGCCTCCAGGGCCCCCTGGCAGTGCTGGAGCCAGAGGAGAACCAGGGCCTGGGGGTCGACCAG GATTCCCTGGCACACCTGGGATGCAAGGACCCCCTGGTGAACGAGGTTTGCCTGGAGAGAAAGGTGAAAG GGGTACTGGGTCTCAAGGACCCCGAGGACCGCCTGGGCCCCCAGGTCCACAAGGCGAATCCCGAACGGGT CCACCAGGGTCTACAGGTTCAAGAGGCCCTCCTGGTCCCCCTGGTCGTCCAGGAAACTCAGGTATCCGAG GCCCTCCAGGTCCTCCTGGATATTGTGATTCATCCCAGTGTGCCAGCATCCCGTACAATGGGCAAGGCTA TCCAGGTTCCGGCTAA ACGCGTACGCGGCCGCTCGAGCAGAAACTCATCTCAGAAGAGGATCTGGCAGCAAATGATATCCTGGATT ACAAGGATGACGACGATAAGGTTTAA |
Restriction Sites | SgfI-MluI |
ACCN | NM_007730 |
Insert Size | 9186 bp |
OTI Disclaimer | Our molecular clone sequence data has been matched to the reference identifier above as a point of reference. Note that the complete sequence of our molecular clones may differ from the sequence published for this corresponding reference, e.g., by representing an alternative RNA splicing form or single nucleotide polymorphism (SNP). |
Product Components | The ORF clone is ion-exchange column purified and shipped in a 2D barcoded Matrix tube containing 10ug of transfection-ready, dried plasmid DNA (reconstitute with 100 ul of water). |
Reconstitution | 1. Centrifuge at 5,000xg for 5min. 2. Carefully open the tube and add 100ul of sterile water to dissolve the DNA. 3. Close the tube and incubate for 10 minutes at room temperature. 4. Briefly vortex the tube and then do a quick spin (less than 5000xg) to concentrate the liquid at the bottom. 5. Store the suspended plasmid at -20°C. The DNA is stable for at least one year from date of shipping when stored at -20°C. |
Reference Data | |
RefSeq | NM_007730.2, NP_031756.2 |
RefSeq Size | 11659 bp |
RefSeq ORF | 9186 bp |
Locus ID | 12816 |
Cytogenetics | 9 43.82 cM |
Gene Summary | Type XII collagen interacts with type I collagen-containing fibrils, the COL1 domain could be associated with the surface of the fibrils, and the COL2 and NC3 domains may be localized in the perifibrillar matrix.[UniProtKB/Swiss-Prot Function] |
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